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1.
Ian A. Simpson Dr. Kevin P. Singer Dr. David Treagust Dr. Marjan G. Zadnik 《Research in Science Education》1990,20(1):316-323
This paper describes the development and evaluation of a course in physiotherapy whereby the physics fundamental to the modalities
of cold, heat and ultrasound therapies was integrated in lectures and actual physiotherapy activities. The design of the course
is described together with the perceptions of physiotherapy students regarding the organisation of the course, safety aspects
and how well the integration contributed to their understanding of the physics involved in electrotherapy.
Specialization: Physics education.
Specialization: electrotherapy.
Specializations: Diagnosis of student learning difficulties and teaching for conceptual change, technology education, curriculum evaluation.
Specializations: Material science, isotope studies, physics education. 相似文献
2.
Dr Peter Searle 《Research in Science Education》1993,23(1):266-275
This paper reports on the application of a constructivist-based teaching strategy with a small group of first-year physics
students. Data collection and analysis procedures are discussed, and the responses of three students to three situations involving
force concepts are presented. A number of issues relevant to conceptual change teaching strategies are identified. In addition
to an emphasis on alternative conceptions, issues identified that require consideration when developing teaching strategies
for conceptual change include an emphasis on understanding physics terminology, the development of a supportive learning environment
and the use of a wide range of problem contexts.
Specializations: physics education, alternative conceptions, conceptual change. 相似文献
3.
Olugbemiro J. Jegede James C. Taylor Peter Akinsola Okebukola 《Research in Science Education》1991,21(1):198-207
Most of the curriculum design models within the technical-scientific approach utilise the rational and sequential process
of designing and inter-relating the various elements of the design process. While this procedure may be efficient and adequate
for conventional education in which the designers are professional science educators, there is doubt if it satisfies the particular
needs of distance education.
The experience accumulated through a multi-disciplinary team approach to distance learning courseware development for higher
education at the University of Southern Queensland Distance Education Centre motivated this study which primarily focused
on a search for an alternative approach to curriculum development with a more satisfactory functional value.
Using selected units in Engineering as a focus, an experiment was designed in which a variant of the classical Wheeler model
was used. This paper reports the results of this experiment. The implications for contemporary curriculum development initiatives
in science especially within distance education settings are pointed out.
Specializations: science education, learning strategies, curriculum development, instructional design, research and development in distance
education.
Specializations: Cognitive Science, curriculum development, instructional design, expert systems, research and development in distance education.
Specializations: science education, learning strategies, curriculum development, instructional design, research and development in distance
education. 相似文献
4.
The focus of this study was on the investigation of a laboratory instructional program on electricity designed for conceptual
development using constructivist principles for conceptual change. This approach was compared with a traditional laboratory
approach in a quasi-experimental design. The sample was 247 grade 10 students (boys) in a large non-government urban school.
Covariance analysis with the corresponding pretest as covariate showed statistically and educationally significant gains for
the experimental group on cognitive but not attitudinal outcomes when compared to the traditional group. Student and teacher
interview data provide some evidence for the success of the experimental approach.
Specializations: physics education, constructivist approaches to in practical work.
Specializations: science teacher education, learning environments, conceptual change. 相似文献
5.
Gender-inclusive technology materials for the primary school: A case study in curriculum development
Dr. Adrianne Kinnear Dr. David Treagust Dr. Leonie Rennie 《Research in Science Education》1991,21(1):224-233
This paper describes how an idea for technology education materials developed into a process for producing unique curriculum
modules for teaching technology in a gender-inclusive way to primary children. Using a case-study format, the paper describes
the interaction between participants, the sequential evolution of the materials themselves and the degree to which success
was achieved in terms of the original goals. The study demonstrates how an awareness of gender bias needs to be a feature
from the earliest stages of curriculum development, through to the trialling and modification stages. The curriculum materials
were a product of effective cooperation between teachers, science educators and community representatives. They utilise a
“process” approach to the teaching of technology and in this presentation, we demonstrate how this same approach is a useful
framework for describing this particular curriculum development.
Specializations: primary science and technology education, gender issues.
Specializations: diagnosis of student learning and teaching for conceptual change, technology education, curriculum evaluation.
Specializations: affective aspects of science and technology education, gender issues. 相似文献
6.
Mr. Ray Peterson Associate Professor David Treagust 《Research in Science Education》1992,22(1):323-330
This paper discusses a preliminary investigation into primary pre-service teachers' pedagogical reasoning skills. Results
from this investigation led to the development of a problem-based learning model which focused on improving primary pre-service
teachers' pedagogical reasoning skills. The problem-based learning model uses pedagogical reasoning as the basis for creating
problem situations for the pre-service teachers to investigate. The paper reports on pre-service teachers' views on the use
of the approach to improve their pedagogical reasoning skills.
Specializations: science teacher education, learning in science, chemistry education.
Specializations: student learning, conceptual change, technology education, curriculum evaluation. 相似文献
7.
Preparing student teachers to teach thoughtfully and to consider carefully the consequences of their work involves creating
opportunities for these beginning teachers to learn the skills and attitudes required for reflective practive. The case study
described here explores one model of developing reflective practice and the congruent role that the source and use of knowledge
of good teaching practice has in the process of developing the reflective practices of a post-graduate pre-service science
teacher. Of particular interest are the facilitators and barriers she sees as affecting this development.
Specializations: Science education, science teacher education
Specializations: science education, science teacher education, conceptual change, learning environments, science reasoning. 相似文献
8.
This paper describes responses from 28 first-year university physics students to one question of a written test which was
followed up by an interview. The study has two main research aims. Firstly, it characterises the conceptual structures of
students regarding the phenomenon in question. As well as being interesting in their own right, these student understandings
cast light on some broader issues regarding understanding of field representations. While students' understandings of circuit
electricity are well described in the existing science education literature, their understandings of field phenomena are not.
Secondly, it throws light on theoretical questions about the SOLO Taxonomy, which is the framework used to study the students'
conceptual structures. Of particular interest is the nature of student thinking that marks transition from the Concrete Symbolic
to the Formal SOLO mode in this area.
Specializations: physics education, electricity and magnetism, conceptual structures, SOLO Taxonomy.
Specializations: SOLO Taxonomy, conceptual structures, mathematics education. 相似文献
9.
Six beginning primary school teachers pioneering the Interactive Teaching approach to science were studied in their first
year of teaching. Interviews with the beginning teachers revcaled that they faced several obstacles to the implementation
of the interactive teaching of science. These included lack of collegial support, lack of feedback on their teaching, difficulty
assessing the learning of their pupils, and the differences between the culture of learning of the alternative science pedagogy
and that of their pupils. By the end of the year, teachers had reconstructed the alternative science pedagogy in ways that
reduced these difficulties. The interviews also provided evidence that ongoing support by teachers and teacher-educators versed
in the alternative pedagogy can make beginning teacher's implementation of the Interactive Teaching of science less difficult.
Specializations: physics education, beginning teachers.
Specializations: misconceptions, assessment. 相似文献
10.
Alison Grindrod Andrea Klindworth Dr. Marjory-Dore Martin Russell Tytler 《Research in Science Education》1991,21(1):151-160
In 1990, a large proportion of third year primary trainee teachers at Victoria College had observed or taught very few or
no science lessons during the first two years of their course. The students felt that a lack of content knowledge, a crowded
school curriculum, and problems associated with managing resources and equipment, were the main factors contributing to the
low level of science being taught in schools. By the end of their third year significantly more students had taught science
than after the second year. There was also a change in approach to teaching science with more practical activities being included
than previously. The science method unit taught to the students in the third year of their course contributed to this increase.
The students considered the hands-on activities in class to have been the most effective aspect of the unit in their preparation
for the teaching of primary science.
Specializations: children's learning in science, primary teacher education.
Specializations: student understanding of biology, evaluation of formal and informal educational settings.
Specializations: gender, science and technology, environmental education.
Specializations: children's learning in science, language and science. 相似文献
11.
Beverley Jane Associate Professor Marjory-Dore Martin Russell Tytler 《Research in Science Education》1991,21(1):188-197
A study of primary teacher trainees' perceptions and attitudes to science in 1990, has been useful in designing a semester
unit aimed at increasing the confidence and interest of first year students at Victoria College. This paper outlines the background
survey and discusses some, of the results and how they were used to develop the Professional Readiness Study-Understanding
Science. This unit attempts to change attitudes by focussing on metacognition and encourages students to understand and control
their own learning. Discussion involves teaching and learning strategies and alternative assessment approaches including the
student's journal-the Personal Record.
Specializations: technology for learning, health education.
Specializations student understanding of biology, particularly genetics, evaluation.
Specializations: children's learning in science, language in science. 相似文献
12.
Towards a theoretical basis for students' alternative frameworks in science and for science teaching 总被引:1,自引:0,他引:1
Dr Brian L. Jones Professor Kevin F. Collis Dr Jane M. Watson 《Research in Science Education》1993,23(1):126-135
As there is nothing as practical as a good theory, there is a continuing need in the field of science education enquiry to
look for theories which help to interpret the findings about students' alternative frameworks and to inform the design of
teaching strategies which relate to a research focus on ‘how the student learns’. The developmental model of cognitive functioning
based on the SOLO Taxonomy (Biggs & Collis, 1982) as updated in 1991 (Biggs & Collis, 1991; Collis & Biggs, 1991) is being
applied in this way. Questionnaire data from two large studies of science learning of Australian students (conducted by ACER
and NBEET) are being re-analysed in terms of the current theory. This paper illustrates the theory and describes a plan of
further research.
Specializations: science education, students' understandings of phenomena in science.
Specializations: cognitive development, evaluation, mathematics and science education.
Specializations: mathematics education, students' understanding of chance and data concepts. 相似文献
13.
Dr. Diane Grayson 《Research in Science Education》1994,24(1):102-111
Numerous studies have shown that students often hold conceptions that conflict with accepted scientific ideas, both prior
to and after instruction. The failure of instruction to affect students' conceptions can be interpreted as a failure to facilitate
conceptual change. In this paper, an instructional strategy will be described that facilitates conceptual change in the special
case where conceptual difficulties appear to arise because students confuse related physics concepts. The strategy involves
two parts. Firstly, students observe an experiment or demonstration that conflicts with what they expect to see. Secondly,
the instructor identifies students' intuitions that are correct but that they have associated with an incorrect physics term,
and substitutes the correct physics term. Students can thus develop more scientifically acceptable understandings of physics
concepts without having to give up their intuitive ideas. The use of this strategy will be illustrated in two domains of physics.
Specializations: physics education, conceptual development, instructional design, improvement of tertiary science education. 相似文献
14.
This paper outlines work in progress on a study which is investigating what children understand about natural and processed
materials and how scientific learning on the topic could be extended and reinforced in the home. Four different interview
schedules for eliciting children's understanding were developed and tried out. Children's understandings prior to each of
the four units, and at the conclusion of the teaching program were documented through individual interviews. Family interviews
were also conducted prior to and at the conclusion to the teaching. In this paper the difficulties associated with researching
young children's thinking are explored. The rationale for a storytelling context for the interviews is presented, and there
is a preliminary discussion on the effectiveness of the methodology utilised.
Specializations: early childhood science education; the Curriculum Corporation K-3 Science Program.
Specializations: primary science education, teacher education in science, adult experiences of science and technology; the K-3 Science Program. 相似文献
15.
Dr. Lynda J. Creedy 《Research in Science Education》1994,24(1):366-367
Conclusion Teaching needs to be studied in context, as a whole. This approach would require the student to spend much time in classrooms
and in reflection. The STF is a learning environment which while not replacing actual teaching experience, can support that
experience and allow students to maximise the benefit of the time they do have in the classroom. Students can learn about
instructional strategies in a classroom context, tapping into an experienced teacher's knowledge and experience. The motivation
for creating the STF was not to ‘teach’ the students the ‘correct’ strategies to use in the classroom, but to support them
in constructing and testing their own understanding of the instructional strategies in a classroom context.
The next phase of the project will be trials of the STF with pre-service primary teaching students. A copy of the prototype
will be installed at Newling Primary School so that the teachers there can become familiar with the project and offer comment.
After this exposure to the concept, a survey will be conducted to determine the structure and content of an STF which would
support in-service training.
Specializations science education, senior secondary students' understanding of biological concepts, applications of multimedia. 相似文献
16.
The premise that underlies the pre-service science teacher education program at Monash University is the need to focus on
the nature of learning in ways that encourage student-teachers to reconsider their conceptions of learning and how this relates
to their view of teaching. The purpose of teaching portfolios is to act as a prompt for student-teachers to reconsider these
conceptions and as a way of helping them to better articulate their professional knowledge. The Science (Stream 3) student
teachers construct a portfolio of teaching strategies, episodes, ideas, etc. that demonstrate how they see their role as science
teachers. The portfolio is ungraded, openended and organised as a dynamic assessment task, not just a static end product.
This paper reports on student-teachers' understanding of, and approach to portfolios as they come to understand its purpose
and value.
Specializations: chemistry and science education, technology and industry links with science curriculum
Specializations: science education, reflection, curriculum and evaluation 相似文献
17.
Mr Jeffrey P. Dorman Dr Campbell J. McRobbie Dr Barry J. Fraser 《Research in Science Education》1993,23(1):61-67
Much Catholic school and church rhetoric suggests that Catholic schools possess distinctive learning environments. Research
into this aspect of Catholic schooling has been hampered by the lack of an appropriate assessment instrument. By drawing on
contemporary church literature, the perceptions of personnel involved in Catholic education and existing classroom environment
questionnaires, a new instrument was developed to assess student perceptions of classroom psychosocial environment in Catholic
schools. The use of this instrument in 64 classrooms in Catholic and Government schools indicated significant differences
on some scales. The distinctive nature of Catholic schooling did not extend to all classroom environment dimensions deemed
important to Catholic education.
Specializations: Catholic education, learning environments.
Specializations: conceptual change in students, science teacher professional development, scientific reasoning, learning environments.
Specializations: learning environments, science education, educational evaluation, curriculum. 相似文献
18.
Dr. Donna Satterthwait Dr. Jim Butler Dr. Warren Beasley 《Research in Science Education》1993,23(1):252-258
Australia's changing political, social and economic agendas have triggered a critical analysis of school curriculum. Part
of this consideration has been concern over the future of science education within the context of senior schooling. Following
the completion of the Senior Science Future Directions Project commissioned by the Queensland Board of Senior Secondary School
Studies, fifteen issues were identified. These issues, grouped by the needs of the science disciplines, society and the individual
student, are discussed with the view of understanding the future design of senior science syllabuses.
Specializations: biology teacher education, science curriculum development.
Specializations: professional development, curriculum design and evaluation.
Specializations: professional development, science teaching. 相似文献
19.
The potential of informal sources of science learning to supplement and interact with formal classroom science is receiving
increasing recognition and attention in the research literature. In this study, a phenomenographic approach was used to determine
changes in levels of understanding of 27 grade 7 primary school children as a result of a visit to an interactive science
centre. The results showed that most students did change their levels of understanding of aspects of the concept “sound”.
The study also provides information which will be of assistance to teachers on the levels of understanding displayed by students
on this concept.
Specializations: informal science learning, science curriculum
Specializations: science education, science teacher education, conceptual change, learning environments. 相似文献
20.
MS. Christine Chin DRS. Ngoh-Khang Goh Lian-Sai Chia Kam-Wah Lucille Lee DR. Kay-Cheng Soh 《Research in Science Education》1994,24(1):41-50
The use of problem-solving in science instruction implies a change in the teacher's role from dispensing content information
to encouraging critical reflective thinking in the student. For problem-solving to become an integral part of the science
curriculum, teachers must make it the focus of their instruction. This study investigated the extent to which pre-service
primary teachers used the problem-solving approach in their science instruction. It also identified the factors affecting
their efforts to teach science using this approach. The issues considered are important in whether problem-solving becomes
part of the science curriculum, as teaching behaviour influences student learning outcomes.
Specializations: science eeducation
Specializations: educational measurement, research methodology. 相似文献